Dwelling with selectively adjustable living spaces, and corresponding methods associated thereto

ABSTRACT

A dwelling for accommodating users, the dwelling including at least one dividing module provided with respect to a floor surface for separating the floor surface into at least two separate living spaces, the at least one dividing module being selectively adjustable in position with respect to the floor surface for providing the dwelling with selectively adjustable living spaces. The dwelling also includes a displacement assembly operatively connectable to the at least one dividing module for displacing said at least one dividing module about the floor surface. The dwelling also includes a controlling assembly operatively disposed between the at least one dividing module and the displacement assembly for allowing a user of the dwelling to selectively and adjustably position the at least one dividing module with respect to the floor surface of the dwelling, and in turn to selectively and adjustably vary a corresponding layout of the two separate living spaces delimited by the at least one dividing module, in response to a given input of the user and depending on a desired configuration by said user of the dwelling.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is the U.S. National Stage of International ApplicationNo. PCT/CA2018/050058, filed on Jan. 18, 2018, which claims the benefitof and priority to U.S. Provisional Application No. 62/447,678, filed onJan. 18, 2017, the contents of each of which are expressly incorporatedherein by reference in their entireties.

FIELD OF THE INVENTION

The present invention relates to a new innovative type of dwelling,hereinafter referred to also as a “Move Home” (trademark expressioncurrently used by the Applicant of the present patent application forthe present concept/system). More particularly, the present inventionrelates to a dwelling with selectively adjustable living spaces, to abuilding and/or a residential area provided with at least one of suchdwelling, to a kit for assembling the same, and to corresponding methodsof manufacturing, assembling and operating associated thereto, as wellas to various other different aspects.

BACKGROUND OF THE INVENTION

Concepts for dwellings, such as mobile service block systems, are knownin the art.

For example, US patent application No. US 2015/354200 A1 made public onDec. 10, 2015, and naming Pierre LECLERC as the inventor (same inventoras that of the present application), relates to a “mobile service blocksystem and method”. This document describes a mobile service blocksystem including prefabricated bathroom, kitchen and other service roomunits in a single compact and mobile form for installation and use inbuildings. The mobile service block system includes a base framesupporting at least one service unit selected from the group comprisingbathroom units, kitchen units, laundry units, and closet units, and adisplacement mechanism operatively connected to the base frame fordisplacement of the base frame and of the mobile service block systemfrom one location to another. A method of installing the mobile serviceblock system in a building and a room unit including the mobile serviceblock system are also disclosed.

Also known to the Applicant are the following patent applications: US2002/0194796 A1; US 2004/0035060 A1; US 2006/0048458 A1; US 2007/0033882A1 US 2007/0266649 A1; US 2007/0252374 A1; US 2007/0296605 A1; US2008/0005976 A1; US 2010/0126082 A1; US 2010/0139179 A1; US 2011/0107690A1; US 2011/0209735 A1; US 2011/0289860 A1; US 2012/0000142 A1; US2012/0006369 A1; US 2012/0222367 A1; US 2012/0311938 A1; US 2013/0014451A1; US 2013/0086849 A1; US 2013/0147634 A1; US 2014/0130423 A1; US2014/0300087 A1; US 2016/0145853 A1; US 2016/0333569 A1; and US2016/0376784 A1.

Also known to the Applicant are the following patents: U.S. Pat. Nos.RE25,690 E; D450,132 S; 2,499,498; 3,346,295; 4,250,669; 4,667,580;5,735,639; 5,740,641; 6,675,540 B1; 6,981,347 B1; 8,621,787 B2;8,776,449 B1; and 9,416,527 B2.

Despite these considerable improvements, there is always a need tocontinue innovating and finding better and/or different ways ofproviding dwellings for people, in a quicker, easier, simpler, faster,more efficient, more economical, more reliable, more adjustable, moreversatile, more adaptable, more environmentally-friendly, moresustainable and/or more desirable manner.

SUMMARY OF THE INVENTION

An object of the present invention is to provide a new type of dwellingwhich, by virtue of its design and components, is intended to satisfythe above-mentioned need and which is thus an improvement over otherrelated dwelling concepts, systems, assemblies and/or methods known inthe prior art.

In accordance with the present invention, the above main object isachieved, as will be easily understood, with a dwelling (and/orcorresponding associated methods of manufacturing, assembling, use,operation, etc.) such as the one(s) briefly described herein and such asthe one exemplified in the accompanying drawings.

More particularly, according to one aspect of the present invention,there is provided a dwelling for accommodating users, the dwellingcomprising:

-   -   a floor surface;    -   at least one side wall provided about the floor surface;    -   at least one dividing module provided with respect to the floor        surface for separating the floor surface into at least two        separate living spaces, the at least one dividing module being        selectively adjustable in position with respect to the floor        surface for providing the dwelling with selectively adjustable        living spaces (ex. adjustable in size, in configuration, etc.).

According to another aspect of the present invention, there is alsoprovided a dwelling for accommodating users, the dwelling comprising:

a floor surface;

at least one side wall provided with respect to the floor surface;

at least one dividing module provided with respect to the floor surfacefor separating the floor surface into at least two separate livingspaces, the at least one dividing module being selectively adjustable inposition with respect to the floor surface for providing the dwellingwith selectively adjustable living spaces;

a displacement assembly operatively connectable to the at least onedividing module for displacing said at least one dividing module aboutthe floor surface of the dwelling; and

a controlling assembly operatively disposed between the at least onedividing module and the displacement assembly for allowing a user of thedwelling to selectively and adjustably position the at least onedividing module with respect to the floor surface of the dwelling, andin turn to selectively and adjustably vary a corresponding layout of thetwo separate living spaces delimited by the at least one dividingmodule, in response to a given input of the user and depending on adesired configuration by said user of the dwelling.

According to yet another aspect of the present invention, there is alsoprovided a station, machine, plant and/or facility for manufacturing theabove-mentioned dwelling and/or components thereof.

According to yet another aspect of the present invention, there is alsoprovided a method of manufacturing the above-mentioned dwelling and/orcomponents thereof.

According to yet another aspect of the present invention, there is alsoprovided a building and/or a residential area containing at least one ofthe above-mentioned dwelling, and preferably, a plurality thereof.

According to yet another aspect of the present invention, there is alsoprovided a method of installing (i.e. assembling, etc.) theabove-mentioned dwelling, station, machine, plant, facility and/orcomponents thereof.

According to yet another aspect of the present invention, there is alsoprovided a method of operating (ex. using, etc.) the above-mentioneddwelling, station, machine, plant, facility and/or components thereof.

According to yet another aspect of the present invention, there is alsoprovided a kit with corresponding components for assembling theabove-mentioned dwelling, station, machine, plant, facility and/orcomponents thereof.

According to yet another aspect of the present invention, there is alsoprovided a set of components for interchanging with components of theabove-mentioned kit.

According to yet another aspect of the present invention, there is alsoprovided a method of assembling components of the above-mentioned kitand/or set.

According to yet another aspect of the present invention, there is alsoprovided a method of doing business with the above-mentioned method(s),kit, set, dwelling, station, machine, plant, facility and/or componentsthereof.

According to yet another aspect of the present invention, there is alsoprovided a contract (ex. a purchasing contract, a rental contract, amanufacturing contract, a distribution contract, a licensing contract,etc.) obtained with the above-mentioned method(s), kit, set, dwelling,station, machine, plant, facility and/or components thereof.

The objects, advantages and other features of the present invention willbecome more apparent upon reading of the following non-restrictivedescription of preferred embodiments thereof, given for the purpose ofexemplification only, with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic representation of a dwelling including at leastone mobile platform for use with a dividing module according to apossible embodiment of the present system.

FIG. 2 is a partial perspective of examples of possible connectioncarriers which can be used with what is shown in FIG. 1 according todifferent possible embodiments of the present system.

FIG. 3 is a top view of a dwelling according to a possible embodiment ofthe present system, the dwelling being shown with its dividing module ina first given configuration (ex. a “daytime” configuration).

FIG. 4 is another top view of what is shown in FIG. 3, the dwellingbeing now shown with its dividing module in a second given configuration(ex. a “nighttime” configuration).

FIG. 5 is a partial inside view of a dwelling according to anotherpossible embodiment of the present system.

FIG. 6 is a partial inside view of a dwelling according to anotherpossible embodiment of the present system.

FIG. 7 is a partial inside view of a dwelling according to anotherpossible embodiment of the present system.

FIG. 8 is a partial inside view of a dwelling according to anotherpossible embodiment of the present system.

FIG. 9 is a top perspective view of a dwelling according to a possibleembodiment of the present system, the dwelling being shown with itsdividing module in a first given configuration (ex. a “nighttime”configuration).

FIG. 10 is another top perspective view of what is shown in FIG. 9, thedwelling being now shown with its dividing module in a second givenconfiguration (ex. a “daytime” configuration).

FIG. 11 is a top perspective of what is shown in FIG. 10.

FIG. 12 FIG. 11 is a top perspective of what is shown in FIG. 9.

FIG. 13 is a front plan view of a touchscreen of a control panelaccording to a possible embodiment of the present system.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION

In the following description, the same numerical references refer tosimilar elements. Furthermore, for sake of simplicity and clarity,namely so as to not unduly burden the figures with several referencenumbers, only some figures have been provided with reference numbers,and components and features of the present invention illustrated inother figures can be easily inferred therefrom. The embodiments,geometrical configurations, materials mentioned and/or dimensions(expressed in inches, and/or centimeters, for example) shown in thefigures are preferred, for exemplification purposes only.

Moreover, although the present invention was primarily designed for“residential” purposes, to enable a “dwelling” (ex. “home”, “apartment”,“condo”, etc.) to have selectively adjustable living spaces (ex.kitchen, bedroom, living room, etc.), it may be used with other types ofobjects, and in other fields, as apparent to a person skilled in theart. For this reason, expressions such as “residential”, “dwelling”,“home”, “apartment”, “condo”, “living”, “space”, “kitchen”, “bedroom”,“living room”, etc., used herein should not be taken as to limit thescope of the present invention and include all other kinds of objects orfields with which the present invention could be used and may be useful,as apparent to a person skilled in the art. Indeed, the presentinvention may be intended and/or used in various other fields, whethercommercial (ex. in “work spaces”, etc.), industrial, manufacturing,and/or the like, etc.

Moreover, in the context of the present invention, the expressions“dwelling”, “home”, “Move Home”, “MoveHome”, “system”, “concept”,“device”, “apparatus”, “assembly”, “equipment”, “product”, “station”,“module”, “unit”, “component”, “method” and “kit” and “assembly”, aswell as any other equivalent expressions and/or compound words thereofknown in the art will be used interchangeably, as apparent to a personskilled in the art. This applies also for any other mutually equivalentexpressions, such as, for example: a) “dwelling”, “apartment”, “home”,“condo”, etc.; b) “selectively”, “adjustably”, “progressively”,“controllably”, “incrementally”, etc.; c) “adjusting”, “producing”,“manufacturing”, “processing”, “altering”, “modifying”, “changing”,etc.; d) “living space”, “work space”, “usage space”, etc.; e) “moving”,“displacing”, “sliding”, “translating”, etc.; f) “abut”, “with respectto”, “about”, “relative to”, etc.; as well as for any other mutuallyequivalent expressions, pertaining to the aforementioned expressionsand/or to any other structural and/or functional aspects of the presentinvention, as also apparent to a person skilled in the art.

Furthermore, in the context of the present description, it will beconsidered that all elongated objects will have an implicit“longitudinal axis” or “centerline”, such as the longitudinal axis of ashaft, or the centerline of a hole, for example (and as a result, thereis a “transversal axis” being substantially “perpendicular” to eachlongitudinal axis, etc.), and that expressions such as “connected” and“connectable”, or “mounted” and “mountable”, may be interchangeable, inthat the present invention also relates to a kit with correspondingcomponents for assembling a resulting fully assembled and operationaldwelling with selectively adjustable living spaces, etc.

Moreover, components of the dwelling(s) and/or steps of the method(s)described herein could be modified, simplified, altered, omitted,combined and/or interchanged, whether individually and/or collectively,without departing from the scope of the present invention, depending onthe particular applications which the present invention is intended for,and the desired end results, as briefly exemplified herein and as alsoapparent to a person skilled in the art.

In addition, although the preferred embodiments of the present inventionas illustrated in the accompanying drawings may comprise variouscomponents, and although the preferred embodiments of the dwelling andcorresponding method may consist of certain preferred steps andcomponents as explained herein, not all of these steps and componentsare essential to the invention and thus should not be taken in theirrestrictive sense, i.e. should not be taken as to limit the scope of thepresent invention. It is to be understood, as also apparent to a personskilled in the art, that other suitable step(s), component(s) andcooperation(s) thereinbetween, may be used for the present dwelling andcorresponding method (as well as corresponding components) according tothe present invention, as will be briefly explained hereinafter and ascan be easily inferred herefrom by a person skilled in the art, withoutdeparting from the scope of the invention.

Broadly described, the present invention, as illustrated in theaccompanying drawings, relates to the innovative work of M. PierreLeclerc carried out over several years in order to come up with a newand improved dwelling concept with respect to his previous concept asdescribed in US patent application No. US 2015/354200 A1, the content ofwhich is entirely and/or selectively incorporated herein by reference.

LIST OF NUMERICAL REFERENCES FOR SOME OF THE CORRESPONDING POSSIBLECOMPONENTS ILLUSTRATED IN THE ACCOMPANYING DRAWINGS

1. dwelling (ex. “Move Home” concept/system)

3. user(s)

5. floor surface

7. side wall

7 a. longitudinal side wall

7 b. end wall

9. dividing module (or simply “module”)

11. living space

11 a. first living space

11 b. second living space

13. degree-of-freedom

13 a. first degree-of-freedom (ex. an X-axis)

13 b. second degree-of-freedom (ex. a Y-axis)

13 c. third degree-of-freedom (ex. a Z-axis)

15. mobile base (ex. mobile platform)

17. unit

17 a. kitchen unit

17 b. bathroom unit

17 c. shower unit

17 d. closet unit

17 e. storage unit

17 f. other unit

19. oven

21. stove top

23. air extractor

25. microwave

27. faucet-and-sink assembly

29. dishwasher

31. refrigerator

33. freezer

35. toilet

37. peripheral unit (of dwelling—ex. unit with foldable bed and/ortable, etc.)

39. bathtub

41. shower

43. dehumidifier

45. connection(s) (ex. “utility” connection(s), etc.)

45 i. inner connection

45 o. outer connection

45 a plumbing connection

45 b. electrical connection

45 c. venting connection

47. connection carrier (ex. chain flex)

47 a. first end (of connection carrier)

47 b. second end (of connection carrier)

49. minimal radius of curvature

51. link(s) (of connection carrier)

53. chain(s) (of connection carrier)

55. bridging link(s) (of connection carrier)

57. supporting component (for connection carrier)

59. side panel (ex. concealment panel)

61. submersible pump

63. pre-determined operative area (of dividing module)

65. sensor(s) (ex. positioning, smoke, CO₂, etc.)

67. actuator (ex. valve, switch, control, etc.)

69. control panel

71. displacement assembly

73. wheel(s) (of dividing module)

75. motor (ex. electrical motor, other type of motor, etc.)

77. hole(s) (for air cushion)

79. device (ex. pump, compressor, etc.)

81. hanging assembly

83. path (ex. track, rail, groove, etc.)

Indeed, the present dwelling concept is particularly advantageous inthat, by virtue of its design, components and features, as betterdescribed and illustrated herein, it enables to provide dwellings forpeople, in a quicker, easier, simpler, faster, more efficient, moreeconomical, more reliable, more adjustable, more versatile, moreadaptable, more environmentally-friendly, more sustainable and/or moredesirable manner, than what is possible with conventional known systems.

The present dwelling (1) may come in the form of a dwelling includingone and/or several of the following possible components and/or features(and/or different combination(s)/permutation(s) thereof):

1. A dwelling (1) for accommodating users (3), the dwelling (1)comprising:

a floor surface (5);

at least one side wall (7) provided about the floor surface (5);

at least one dividing module (9) provided about the floor surface (5)for separating the floor surface (5) into at least two separate livingspaces (11), the at least one dividing module (9) being selectivelyadjustable in position with respect to the floor surface (5) forproviding the dwelling (1) with selectively adjustable living spaces(11) (ex. adjustable in size, in configuration, etc.).

2. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is configured fordisplacement along at least one degree-of-freedom (13) (ex. a “first”degree-of-freedom (13 a)).

3. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is further configured fordisplacement along at least one other degree-of-freedom (13) (ex. a“second” degree-of-freedom (13 b)).

4. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is further configured fordisplacement along yet at least one other degree-of-freedom (13) (ex. a“third” degree-of-freedom (13 c)).

5. A dwelling (1) according to any one of the preceding combination(s),wherein each degree-of-freedom (13) is configured for enabling the atleast one dividing module (9) to carry out at least one movementselected from the group consisting of: a translational movement, aradial movement, a pivotal movement, a rotational movement, a tiltingmovement, an arching movement, and/or other corresponding movement beingrequired, etc.

6. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) comprises a mobile base(15) (ex. a mobile platform, etc.) being displaceable about the floorsurface (5).

7. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) comprises a wheeled base(ex. a wheeled mobile platform, etc.).

8. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is configured to movehorizontally about the floor surface (5) of the dwelling (1) along atleast one substantially rectilinear direction.

9. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is configured to move frontand back, and vice-versa.

10. A dwelling (1) according to any one of the preceding combination(s),wherein at least two different degrees of motions of the at least onedividing module (9) are substantially perpendicular (ex. orthogonal,etc.) to one another.

11. A dwelling (1) according to any one of the preceding combination(s),wherein in addition to being able to move front and back, andvice-versa, the at least one dividing module (9) is further configuredto move left and right, and vice-versa.

12. A dwelling (1) according to any one of the preceding combination(s),wherein three different degrees of motions of the at least one dividingmodule (9) are substantially perpendicular (ex. orthogonal, etc.) to oneanother.

13. A dwelling (1) according to any one of the preceding combination(s),wherein in addition to being able to move front and back, andvice-versa, as well as left and right, and vice-versa, the at least onedividing module (9) is further configured to move up and down, andvice-versa.

14. A dwelling (1) according to any one of the preceding combination(s),wherein each degree-of-freedom (13) extends along a substantiallyrectilinear direction (ex. along a given axis of translation, etc.).

15. A dwelling (1) according to any one of the preceding combination(s),wherein a first degree-of-freedom (13 a) of the at least one dividingmodule (9) extends along a substantially longitudinal direction (ex.along a first axis, such as an “X-axis”, for example), wherein a seconddegree-of-freedom (13 b) of the at least one dividing module (9) extendsalong a substantially transversal direction (ex. along a second axis,such as a “Y-axis”, for example), and wherein a third degree-of-freedom(13 c) of the at least one dividing module (9) extends along asubstantially vertical direction (ex. along a third axis, such as a“Z-axis”, for example).

16. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises at least one unit (17) selected fromthe group consisting of a kitchen unit (17 a), a bathroom unit (17 b), ashower unit (17 c), a closet unit (17 d), a storage unit (17 e), and/orother corresponding unit (17) being required for the dwelling (1), etc.

17. A dwelling (1) according to any one of the preceding combination(s),wherein the kitchen unit (17 a) is contained within (ex. about, on,inside, and/or other, etc.) the at least dividing module (9) (and/or acorresponding portion thereof, etc.), and is thus, selectivelydisplaceable with respect to the floor surface (5) of the dwelling (1)via a corresponding displacement of the at least dividing module (9).

18. A dwelling (1) according to any one of the preceding combination(s),wherein the bathroom unit (17 b) is contained within (ex. about, on,inside, and/or other, etc.) the at least dividing module (9) (and/or acorresponding portion thereof, etc.), and is thus, selectivelydisplaceable with respect to the floor surface (5) of the dwelling (1)via a corresponding displacement of the at least dividing module (9).

19. A dwelling (1) according to any one of the preceding combination(s),wherein the shower unit (17 c) is contained within (ex. about, on,inside, and/or other, etc.) the at least dividing module (9) (and/or acorresponding portion thereof, etc.), and is thus, selectivelydisplaceable with respect to the floor surface (5) of the dwelling (1)via a corresponding displacement of the at least dividing module (9).

20. A dwelling (1) according to any one of the preceding combination(s),wherein the closet unit (17 d) is contained within (ex. about, on,inside, and/or other, etc.) the at least dividing module (9) (and/or acorresponding portion thereof, etc.), and is thus, selectivelydisplaceable with respect to the floor surface (5) of the dwelling (1)via a corresponding displacement of the at least dividing module (9).

21. A dwelling (1) according to any one of the preceding combination(s),wherein the storage unit (17 e) is contained within (ex. about, on,inside, and/or other, etc.) the at least dividing module (9) (and/or acorresponding portion thereof, etc.), and is thus, selectivelydisplaceable with respect to the floor surface (5) of the dwelling (1)via a corresponding displacement of the at least dividing module (9).

22. A dwelling (1) according to any one of the preceding combination(s),wherein several units (17) (ex. one and/or several of the aforementionedunits (17) and/or others) are all contained within (ex. about, on,inside, and/or other, etc.) the at least dividing module (9) (and/or acorresponding portion thereof, etc.), and are thus, selectivelydisplaceable with respect to the floor surface (5) of the dwelling (1)via a corresponding displacement of the at least dividing module (9).

23. A dwelling (1) according to any one of the preceding combination(s),wherein the kitchen unit (17 a) includes at least one appliance selectedfrom the group consisting of an oven (19), a stove top (21), an airextractor (23), a microwave (25), a faucet-and-sink assembly (27), adishwasher (29), a refrigerator (31), a freezer (33), etc.

24. A dwelling (1) according to any one of the preceding combination(s),wherein the bathroom unit (17 b) includes at least one utility serviceselected from the group consisting of a toilet (35), a faucet-and-sinkassembly (27), a bathtub (39), a shower (41), a dehumidifier (43), etc.

25. A dwelling (1) according to any one of the preceding combination(s),wherein each unit (ex. one and/or several of the aforementioned units(17) and/or others) is prefabricated prior to installing into thedwelling (1) about the at least one dividing module (9).

26. A dwelling (1) according to any one of the preceding combination(s),wherein unassembled components of each unit (17) (ex. one and/or severalof the aforementioned units (17) and/or others) are shaped and sized tofit through a corresponding standard-sized door (ex. of the presentdwelling (1), and/or of a building containing the present dwelling (1),etc.—and/or of a corresponding elevator thereof, etc.).

27. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) includes at least one inner plumbing connection(45 a) being operatively connectable to at least one outer plumbingconnection (45 a) provided outside of the dwelling (1).

28. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) includes at least one inner electricalconnection (45 b) being operatively connectable to at least one outerelectrical connection (45 b) provided outside of the dwelling (1).

29. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) includes at least one inner venting connection(45 c) being operatively connectable to at least one outer ventingconnection (45 c) provided outside of the dwelling (1).

30. A dwelling (1) according to any one of the preceding combination(s),wherein inner connection(s) (45) (ex. plumbing, electrical, venting,and/or etc.) of the dwelling (1) is(are) provided about the at least onedividing module (9).

31. A dwelling (1) according to any one of the preceding combination(s),wherein inner connection(s) (45) (ex. plumbing, electrical, venting,and/or etc.) of the dwelling (1) is(are) operatively connected tocorresponding units (17) (ex. kitchen unit (17 a), a bathroom unit (17b), a shower unit (17 c), a closet unit (17 d), a storage unit (17 e),etc. and/or corresponding components thereof) of the at least onedividing module (9).

32. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises a connection carrier (47) forcarrying (ex. supporting, linking, connecting, interconnecting,relaying, etc.) inner connection(s) (45) (ex. plumbing, electrical,venting, and/or etc.) of the dwelling (1) to corresponding outerconnection(s) (45) (ex. plumbing, electrical, venting, and/or etc.).

33. A dwelling (1) according to any one of the preceding combination(s),wherein the connection carrier (47) is a flexible connection carrier(47) having a moveable first end (47 a) operatively connectable to innerconnection(s) (45) (ex. plumbing, electrical, venting, and/or etc.) ofthe at least one dividing module (9), and a second end (47 b) beingsubstantially fixed and operatively connectable to corresponding outerconnection(s) (45) (ex. plumbing, electrical, venting, and/or etc.) (ex.such as those of the building, etc.).

34. A dwelling (1) according to any one of the preceding combination(s),wherein the connection carrier (47) is configured for preventing abending of inner connection(s) (45) (ex. plumbing, electrical, venting,and/or etc.) beyond a minimal radius of curvature (49) (for example, forensuring proper functioning and/or preventing damage of the connections,etc.).

35. A dwelling (1) according to any one of the preceding combination(s),wherein the connection carrier (47) is an articulated connection carrier(47) including a plurality of links (51).

36. A dwelling (1) according to any one of the preceding combination(s),wherein the connection carrier (47) includes a pair of elongated chains(53) defining a space thereinbetween through which inner connection(s)(45) (ex. plumbing, electrical, venting, and/or etc.) are allowed topass and bend.

37. A dwelling (1) according to any one of the preceding combination(s),wherein the connection carrier (47) includes bridging links (55)interconnecting the pair of elongated chains (53) for containing innerconnection(s) (45) (ex. plumbing, electrical, venting, and/or etc.)within the connection carrier (47).

38. A dwelling (1) according to any one of the preceding combination(s),wherein the connection carrier (47) includes a chain flex.

39. A dwelling (1) according to any one of the preceding combination(s),wherein a first portion of the connection carrier (47) is extendablealong a corresponding supporting component (57) of the dwelling (1), andwherein a second portion of the connection carrier (47) is bendable andmoveable over said first portion of the connection carrier (47).

40. A dwelling (1) according to any one of the preceding combination(s),wherein the first portion of the connection carrier (47) is extendablealong a substantially flattened surface provided about a correspondingside panel (59) (ex. wall panel, ceiling panel, floor panel, etc.) ofthe dwelling (1), and wherein a second portion of the connection carrier(47) is bendable and moveable over (ex. about, in proximity of, adjacentto, etc.) said first portion of the connection carrier (47).

41. A dwelling (1) according to any one of the preceding combination(s),wherein the side panel (59) is a concealment panel, and wherein theconnection carrier (47) is substantially contained (ex. concealed, etc.)within the concealment panel.

42. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) comprises a submersiblepump (61) (see explanations below of possible embodiment(s)).

43. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises at least one substantiallyrectangular portion about which the at least one dividing module (9) isselectively displaceable.

44. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one substantially rectangular portion of thedwelling (1) comprises a pair of longitudinal side walls (7 a), and apair of end walls (7 b).

45. A dwelling (1) according to any one of the preceding combination(s),wherein the end walls (7 b) are shorter in length than the longitudinalside walls (7 a) of the dwelling (1).

46. A dwelling (1) according to any one of the preceding combination(s),wherein the substantially rectangular portion is a substantially squareportion, and thus, wherein corresponding walls of said portion aresubstantially equal in length to one another.

47. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is configured to beselectively displaceable about a pre-determined operative area (63) ofthe floor surface (5).

48. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises positioning sensors (65) fordelimiting movement of the at least one dividing module (9) within atleast one pre-determined operative area (63) of the floor surface (5).

49. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one pre-determined operative area (63) of the floorsurface (5) is adjustable, and programmable (ex. in size, in time, indate, etc.) via a corresponding control panel (69) of the dwelling (1).

50. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises positioning sensors (65) for sensingpositioning of the at least one dividing module (9), of user(s) (3)and/or accessory(ies) (ex. furniture, decoration, etc.) of the dwelling(1), and for stopping movement of the at least one dividing module (9)in order to prevent and/or minimize any possible interference (ex.collision, obstruction, etc.).

51. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises positioning sensors (65) for sensingpositioning of a user (3) in proximity of a given unit (17) of thedwelling (1), and for allowing operation of said given unit (17) onlyupon detecting proximity of the user (3).

52. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) is further configured to prevent operatingcapability of a given unit (17) when presence of a user (3) is notdetected in proximity of said given unit (17).

53. A dwelling (1) according to any one of the preceding combination(s),wherein plumbing operation (ex. provision of water, whether hot and/orcold, etc.) of a given unit (17) is controlled via at least onecorresponding electrical valve (ex. switch, control, actuator (67),etc.) being in communication with a corresponding positioning sensor(65) of the dwelling (1).

54. A dwelling (1) according to any one of the preceding combination(s),wherein electrical operation of a given unit (17) is controlled via atleast one corresponding electrical switch (ex. control, actuator (67),etc.) being in communication with a corresponding positioning sensor(65) of the dwelling (1).

55. A dwelling (1) according to any one of the preceding combination(s),wherein venting operation of a given unit (17) is controlled via atleast one corresponding electrical valve (ex. switch, control, actuator(67), etc.) being in communication with a corresponding positioningsensor (65) of the dwelling (1).

56. A dwelling (1) according to any one of the preceding combination(s),wherein a corresponding operation of a given unit (17) is controlled viaat least one corresponding switch (ex. control, actuator (67), etc.)upon detection of an undesirable condition within the dwelling (1) (ex.water faucets could be turned on, and/or vents could be shut off, etc.,in the event of a fire, etc.—alternatively, vents, such as airextractors (23), could be turned on in the event of undesirablesubstances in the breathable air of the dwelling (1), etc.—optionallyalso, vents, such as dehumidifiers (43), could be turned on in the eventof high levers of humidity in the dwelling (1), etc.).

57. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises different sensors (65) for detectingdifferent parameters (ex. levels of heat, level of moisture, level ofCO₂, possible presence of fire, etc.) within the dwelling (1), thesesensors (65) being connected to corresponding controls within thedwelling (1) for modifying the parameters accordingly based onpre-established conditions and/or parameters being selectively set by auser (3) via a corresponding control panel (69) of the dwelling (1).

58. A dwelling (1) according to any one of the preceding combination(s),wherein electrical operation of a given unit (17) is controlled via atleast one corresponding electrical valve being in communication with acorresponding positioning sensor (65) of the dwelling (1).

59. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is displaceable about thefloor surface (5) of the dwelling (1) via at least one displacementassembly (71).

60. A dwelling (1) according to any one of the preceding combination(s),wherein the displacement assembly (71) comprises at least one wheel (73)(ex. a plurality of wheels (73) provided under and/or about the at leastone dividing module (9)).

61. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) and corresponding at leastone wheel (73) are manually operated (ex. displaceable, adjusted, moved,driven, etc.) by a corresponding user (3) of the dwelling (1).

62. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one wheel (73) (ex. one and/or several wheels (73))is driven by at least one corresponding motor (75) (ex. electricalmotor, and/or other type of motor, etc.).

63. A dwelling (1) according to any one of the preceding combination(s),wherein the displacement assembly (71) includes a magnetic field actingbetween the floor surface (5) and the at least one dividing module (9).

64. A dwelling (1) according to any one of the preceding combination(s),wherein the displacement assembly (71) includes an air cushion generatedunder a base of the at least one dividing module (9) for raising theleast one dividing module (9) with respect to the floor surface (5)(thereby reducing friction between the floor surface (5) and the atleast one dividing module (9), and enabling an easier displacement ofthe dividing module (9) about the floor surface (5), etc.).

65. A dwelling (1) according to any one of the preceding combination(s),wherein air of the air cushion is provided via corresponding holes (77)disposed about the floor surface (5) and/or about the base of the atleast one dividing module (9).

66. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises a corresponding device (79) (ex.pump, compressor, etc.) for providing air to the air cushion viacorresponding piping connected to the corresponding holes (77) disposedabout the floor surface (5) and/or about the base of the at least onedividing module (9).

67. A dwelling (1) according to any one of the preceding combination(s),wherein the displacement assembly (71) includes a hanging assembly (81)for hanging (ex. suspending, etc.) the at least one dividing module (9)from a ceiling of the dwelling (1).

68. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) and/or correspondinghanging assembly (81) thereof are manually operated (ex. displaceable,adjusted, moved, driven, etc.) by a corresponding user (3) of thedwelling (1).

69. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) and/or correspondinghanging assembly (81) thereof are electrically operated (ex.displaceable, adjusted, moved, driven, etc.) by at least onecorresponding motor (75) (ex. electrical motor, and/or other type ofmotor, etc.).

70. A dwelling (1) according to any one of the preceding combination(s),wherein the displacement assembly (71) and/or components thereof (ex.motor(s), etc.)) are selectively controlled via a control panel (69) ofthe dwelling (1).

71. A dwelling (1) according to any one of the preceding combination(s),wherein the at least one dividing module (9) is configured for beingselectively adjustable (ex. moveable, etc.) with respect to the floorsurface (5) of the dwelling (1) via a corresponding path (83) (ex.track, rail, groove, restriction, guidance, etc.).

72. A dwelling (1) according to any one of the preceding combination(s),wherein the corresponding path (83) (ex. track, rail, groove,restriction, guidance, etc.) is provided along a corresponding side wall(7) of the dwelling (1).

73. A dwelling (1) according to any one of the preceding combination(s),wherein the corresponding path (83) (ex. track, rail, groove,restriction, guidance, etc.) is provided along a corresponding floorsurface (5) of the dwelling (1).

74. A dwelling (1) according to any one of the preceding combination(s),wherein the corresponding path (83) (ex. track, rail, groove,restriction, guidance, etc.) is provided along a corresponding ceilingsurface of the dwelling (1).

75. A dwelling (1) according to any one of the preceding combination(s),wherein the corresponding path (83) (ex. track, rail, groove,restriction, guidance, etc.) is further configured (ex. anchored, etc.)for preventing the at least one dividing module (9) from tipping overduring seismic activity (ex. during an earthquake, etc.).

76. A dwelling (1) according to any one of the preceding combination(s),wherein the dwelling (1) comprises at least one first living area (ex. aliving room, dining room, and/or other) provided on one side of the atleast one dividing module (9), and at one second living area (ex. abedroom and/or other) provided on the other side of the at least onedividing module (9).

77. A dwelling (1) according to any one of the preceding combination(s),wherein one and/or several of the different components (ex. module(s)(9), unit(s) (17), etc.) are provided with complementary interlockingjoints (ex. complementary male and female components, complementarytenon and mortise joints, etc.) in order to ensure proper orientation(ex. alignment, etc.) of the components with respect to one anotherand/or in order to ensure proper assembling of the components onto oneanother.

78. A dwelling (1) according to any one of the preceding combination(s),wherein one and/or several of the different components of the dwelling(1) (ex. at least one dividing module (9), etc.) are made from injectionmolding.

79. A kit with corresponding components for assembling a dwelling (1)according to any one of the preceding combination(s).

80. At least one dividing module (9) for use with a dwelling (1)according to any one of the preceding combination(s).

81. A kit with corresponding components for assembling at least onedividing module (9) according to any one of the precedingcombination(s).

Brief Overview of the Module:

As can now be better appreciated, the present system concerns a mobileplatform on which it is possible to install all the systems that areessential to daily life in a dwelling. This platform can be entirelymanufactured in factory in various subassemblies, which can bedetermined (ex. decided, chosen, selected, etc.) by the client,according to particular/specific needs. A possible listing of themajority of the available subassemblies include: kitchen, powder room,toilet room, mechanical or utility room, shower, storage, and/or thelike. The aim of the module is to bring together all the servicesrequired for living in a dwelling (ex. an apartment, condo, etc.),facilitating therefore the integration and the installation of theseessential services. The installation is done quickly and practicallywithout the aid of any specialized workmanship, tools, etc. No wallfixtures (ex. studs, etc.) are required, in that, it is not necessary toinstall the plumbing and the electricity through the walls, but ratherall is done in an “over-hanging” manner, therefore facilitating anyinspection, maintenance and/or repair(s) being required, and alsolimiting greatly any potential damages, etc. According to anadvantageous embodiment, the different disassembled components andpieces of the module are shaped and sized to pass through a standardapartment door. Furthermore, the displacement of the module is generatedby a control system resulting in an increased security, and ease of use.

Systems and Subsystems:

Concerning the mobile platform, and according to a given embodiment, theplatform is made from a metallic material, such as aluminium or steel,for example, chosen in accordance with various design criteria. Thechoice of the subassemblies is usually an important main criteria,therefore, determining also the resulting weight to be sustained, etc.The base can itself be composed of various assembly sections which couldbe linked to one another via mechanical link(s), thereby facilitatingthe transportation and the handling thereof.

Concerning the kitchen, and according to a possible embodiment, thekitchen is preferably a preassembled kitchen manufactured in a factory.It can be configured differently depending on the particular desires andneeds of the client. The kitchen can include one or several of thefollowing possible components, namely: a sink, a dishwasher, arefrigerator, a microwave oven, an air extractor, etc. The kitchen(and/or other modules/parts/walls of the present system, etc.) can alsobe made of various materials, such as for example, with corrugatedpanels, agglomerated panels, etc.

Concerning the toilet room, and according to a possible embodiment, itmay comprise a toilet and a sink with a corresponding faucet, includingcold and hot water and/or mixture thereof.

Concerning the shower, the subassembly may be designed so as to entirelyinclude the floor, wall and/or roof. The shower may comprise its ownpumping system being independently activated by the control system. Itmay also comprise a dehumidifying system enabling to reduce the humidityin the shower assembly, dividing module, and/or remaining apartment.

Concerning the various feed(s) and/or input(s), the module is preferablydisplaced about the floor area (i.e. on, over, above, etc.) of theapartment, and thus, certain connections, for example, water,electricity, sanitary return, venting, air extraction, etc., are done bymobile connections. By using an articulated connection carrier, forexample, as exemplified in FIGS. 1 and 2, it is possible to displace themodule, and it also enables for all the services to be completelyfunctional irrespectively of the position of the module within thedwelling. The positioning of this connection carrier may come in variousshapes and forms, and various other embodiments, as can be easilyunderstood by a person skilled in the art. According to a possibleembodiment, one of the extremities of the connection carrier isoperatively affixed to the module and displaces itself with it, whereasthe other extremity can be operatively fixed, and enables theconnections of all the services to the remaining building.

Concerning the mechanical room, it may include a sanitary tank whichreceives all the used waters of all the equipments necessitating areturn towards the gutters, such as for example, shower, sink, washbasin, toilet, dishwasher, washing machines, etc. With the aid of alevel sensor, a submersible pump which may be present within the insideof the sanitary tank, can evacuate black water by means of flexiblehoses, which themselves can extend through the articulated connectioncarrier through the urban infrastructure, as can be easily understoodwhen referring to FIGS. 1 and 2.

Concerning controls and security, it is worth mentioning that presencesensors can be strategically installed within the present system,enabling the management of water and the displacement of the module.Each of the equipments requiring an input in water can be, for example,individually managed, so that in doing so, water cannot be used unless agiven user is present in proximity of a corresponding equipmentrequiring such water feed. This type of system is advantageous in thatit can prevent or at the very least minimize water damages, etc. Thepresence of sensors according to the present system also enables thedetection of obstacles, thereby ensuring or at least minimizing anyundesirable interaction between two components that are not meant tointeract (i.e. contact, collision, etc.) between one another, therebyensuring the protection of the goods and of the users of the presentsystem.

The displacement and the installation of the module could also bedesigned so as to be limited in speed, thereby enabling the protectionof equipments, accessories of the users of the present system, etc.

Concerning the assemblies, and according to a possible embodiment, allthe subassemblies and equipments of the module can connect to oneanother by means of mechanical connectors and/or links. These mechanicallinks can facilitate the mounting and dismounting of the correspondingsystems.

According to other possible embodiments of the present system, themodule may be installed on various types of constructions, and varioustypes of coverings. Preferably, it is better if these types of coveringsof the floors are smooth, levelled, and regular, although any propercooperation and/or different interaction(s) between the module andcorresponding floor of the dwelling could be envisioned according to thepresent system. Example of possible types of constructions could be woodstructures (ex. floors, supports, etc.), steel structures and/orconcrete structures, whereas possible types of floor coverings canconsist of hardwood floors, concrete floors and/or floors made of epoxycovering, for example.

Concerning the displacement and the guiding of the present system, it isworth mentioning that several other mechanisms could also be possible tocarry out a corresponding displacement of the module. For example, thedisplacement could be carried out horizontally along on one or two orseveral axes. The user can activate this displacement according toparticular needs of a given user, or according to availablepossibilities provided by the given system, etc.

As previously explained, different mechanisms could be used for thedisplacement assembly, such as wheels, for example, and the displacementcould be carried out on wheels by means of at least one electric motor(and/or other type of motor) which could be controlled by the user via acorresponding control panel and/or remote. The displacement mechanismcould also be carried out via a corresponding magnetic field.Alternatively, an air cushion could be generated under the base of themodule enabling the rising of the module, thereby reducing the frictionand enabling an easy and smooth displacement of the module about thecorresponding floor of the dwelling. Alternatively also, thedisplacement mechanism could be suspended and/or hung from the ceiling,via a corresponding rail and/or other type of mechanism, etc.Alternatively also, the module could be manually displaced directly by agiven user.

Concerning the guiding of the present system, and according to apossible embodiment, the guiding is designed so as to ideally ensure alinear displacement and also, is preferably designed so as to act as ananti-tipping mechanism, as a way of protecting against seismic activity,such as earthquakes and the like. The guiding in a possible and mostsimplest embodiment, could be carried out by means of a rail which couldbe fixed either on the roof, to the wall and/or on the floor, and/orcombination thereof.

Concerning sustainable development, in regards to the present system, itis worth mentioning that by assembling, several and/or most of thecomponents of the present system in a factory, it is much easier tocoordinate purchases and to reduce losses of materials, etc.Furthermore, the module being preferably designed so as to be completelymountable and dismountable without breaking of any materials, it ispossible to recuperate the whole module in its entirety, and/or to reuseit in a different location and/or corresponding dwelling, etc.

The majority of the work is preferably meant to be carried out in agiven place, thereby also reducing greatly the displacements of workersand of materials, thereby reducing the use of motorized means oftransportation, corresponding fuel consumption and/or resultingpollution, etc.

Concerning savings, it is worth mentioning that with respect to water,for example, the management of water with the electrical valves of thepresent system can greatly reduce the consumption of water. For example,according to a given possible embodiment of the present system, one mustabsolutely require that the user be present in front of the givenequipment to be used, otherwise, it will be impossible to have waterprovided to the equipment. Various types of mechanisms (ex. faucets,controls, controllers, reducers, etc.) limiting the debit of water couldalso be installed on some or several, or all of the equipments, therebyalso reducing greatly the overall consumption within the dwelling.

Concerning the installation, the systems are preferably dimensioned soas to facilitate transportation and the speed of installation accordingto a standard context of access to the building.

As may now better be appreciated, the present invention is a substantialimprovement over the known prior art in that, by virtue of its designand components, as explained herein, and the particular configuration ofthe MoveHome™ concept and/or components/accessories thereof according tothe present system, it enables to provide dwellings for people, in aquicker, easier, simpler, faster, more efficient, more economical, morereliable, more adjustable, more versatile, more adaptable, moreenvironmentally-friendly, more sustainable and/or more desirable mannerthan what is possible with respect to other known conventional dwellingconcepts, etc.

Indeed, and for example, the present dwelling system is advantageous inthat it enables a user thereof to change his/her own living space(s) tomeet specific changing needs.

More particularly, the present dwelling system is an innovative designthat breaks new grounds, in that, the Move Home concept offers a new wayof life for people who value flexibility, innovation, and sustainabledevelopment, all while lowering construction-related costs.

Regarding a maximizing of space, the present system is also veryadvantageous in that with Move Home, any room can quickly be transformedto meet space-use needs.

Installation is also greatly facilitated, in that, as explainedhereinabove, units are meant to pre-assembled at the factory. Therefore,and dimensionally speaking, they are meant to be designed to fit easilythrough a front door, an elevator door, etc.

Sustainable development is also at the forefront of the present MoveHome concept. Indeed, the present dwelling system offers the possibilityof a modular design which minimizes waste during construction and doesnot generate any considerable waste during its fabrication since it ismeant to be “factory-made”, prior to installation, etc.

The present dwelling system is also advantageous in that if offers amodule, grouping together building amenities, into a mobile unit that is“dynamic” and “adjustable”, in that, it can be moved linearly at thetenant's/owner's desire, allowing them to take full advantage of theliving spaces, options, etc.

The present system is also advantageous in that it offers a designand/or a product that provides maximum comfort in a minimum amount ofspace while contributing to sustainable development using reusablematerials with a focus on comfort and quality of life. Indeed, thepresent system is meant to be a very desirable choice option forflexible interior design layouts. The present system and/or associatedaspects/components thereof are also meant to be made for modern lifewith mobility solutions that maximize the potential of small residentialand commercial spaces.

Indeed, Move Home's high technology units group together buildingamenities and provide enhanced flexibility in the way indoor spaces arethought out. Designed with sustainable development in mind, theassociated innovative module(s) and corresponding unit(s) are meant tobe factory-built, which significantly lowers construction-related costs.A corresponding manufacturing plant may also be provided with thepresent concept, so as to be equipped with state-of-the-art technologythat would ensure short lead times and superior products.

As previously explained, the Move Home design is quite innovativecompared to traditional dwellings, in that it provides a mobile platform(and/or “module”), that can be moved inside a living space to meet auser's needs, whether it is making a bedroom or the kitchen and livingroom area(s) bigger and/or smaller, if so desired.

The module features all the basic equipment found in an autonomousliving space, including a full kitchen and a bathroom with toilet, sink,and shower. The overall design can also include an entry closet, a wallbed, a laundry cupboard that can accommodate a stackable washer anddryer, and, behind the sliding module, a large wall of built-in storagecupboards.

As previously explained also, the present dwelling system can beprovided with automatic protection devices. Thus, the module and/orother parts of the dwelling can incorporate automatic protection devicesthat significantly lower the risks of water damage and excess energyconsumption.

The present dwelling system is also meant to provide a safeconfiguration, in that the safe reconfiguration of the living space isensured with a touchscreen (ex. a centralized touchscreen, on a side ofthe diving module, for example) which can be connected to amicro-computer which coordinates the movement of the module, forexample. To activate the shift mechanism, the user can press oncorresponding movement arrow(s) on the screen. If one of the sensorsdetects a presence in the kitchen or bathroom, it can prevent the modulefrom moving.

The present dwelling system is also advantageous in that it providesflexibility and functionality. Indeed, Move Home is an ideal solutionfor maximizing open-concept loft and studio spaces measuring from about300 sq. ft. to about 450 sq. ft. (i.e. about 28 to 42 m²).

The present dwelling system is also advantageous in that it providescustomization to a user's specific needs. Thus, in a spirit ofsustainable development, the replacement of parts is simple, and therecovery system will facilitate end-of-life management. Also, on one cancustomize the diving module by choosing from different storage optionsand/or different finishes and colours.

The present dwelling system is also advantageous in that it provides anecological design. Indeed, Move Home offers a selection of designs thatlower their environmental footprint by favoring easy disassembly andpart replacement. The present dwelling design aims to make the most of aliving space.

Several other advantages, for a consumer, a builder and/or a real estatepromoter, also result from employing the present Move Home dwellingsystem, some of which are exemplified as follows: a) up to 160 sq. ft.of living space giving great flexibility of layout; b) greater acousticperformance and/or greater quality of life; c) greater accessibilitywith first-time buyers; d) sustainable development: possibility to buildabout 33% more units per floor surface; e) simplified project managementfor builders; f) etc.

Other examples of possible advantages for consumers of the present MoveHome dwelling system are the following: a) major savings: the Move Homeconcept will let you save up to 160 ft2 (15 m2) on the size of theapartment; b) great flexibility of layout; c) in a 25′×16′, it gives a16′×16′ living room or a 15′×16′ bedroom (wall-to-wall); d) superiorstorage options than other larger residential spaces; e) possibility toconfigure an office space; f) greater acoustic performance, in that, forexample, no water distribution of sewage lines passes through the floor;g) greater quality of life; h) savings on insurance, in that the presentdwelling system is energy-efficient and safe; i) etc.

Other examples of possible advantages for builders of the present MoveHome dwelling system are the following: a) possibility to build about33% more units per floor surface. e.g., 6 units of 580 sq. ft.=8 MoveHome units of 420 sq. ft.; b) added value to units—far more to offer toconsumers; c) quick and independent sale of units; d) base building: noneed to worry about where drains are positioned, etc.—one just needs onewater inlet from a drain stack on one wall and/or the power inlet; e)less time spent on managing contractors; f) savings on time:installation can be done within days; g) peace of mind: the motionsensors can block the water inlet in the absence of occupants; h)substantial savings regarding construction warranty management; i)savings on insurance, in that the present dwelling system isenergy-efficient and safe; j) savings on costs: cabinets, electrical andplumbing are preferably factory-built, etc.; h) substantial savings onwaste production and management (LEED); k) some municipalities requirepermits to install dumpsters—this results in delays, and additionalcosts, on top of the costs for renting the dumpsters, something that canbe avoided and/or minimized when using the present dwelling system; l)etc.

Although not limited to the following examples, the present Move Homedwelling system is particularly advantageous for the following markets:a) new constructions with many units (condos and/or rental units); b)condos located in lodging centers; c) renovation: conversion of largeexisting units into many small and more efficient Move Home spaces; d)tiny houses, cottages, etc.; e) commercial: Move Home can also be usedin the development of hotel condos, more specifically for corporatesuites, etc.

As previous explained, Move Home's unique design consists of a mobileplatform—a module—that can be moved across a living space to meet yourneeds, whether it is making a bedroom or the kitchen and living roomarea bigger, etc. For a particular possible embodiment, such as in a 16′wide apartment (for example), the size of the module can be 9′-6″ long,5′-4″ wide and 7′-6″ tall (all measures are given as approximate andnon-limiting values).

As also previously explained, the module features all the basicequipment found in an autonomous living space, including a full kitchenand a bathroom with toilet, sink, and shower. The global design can alsoinclude an entry closet, a wall bed, a laundry cupboard that canaccommodate a stackable washer and dryer, and, behind the slidingmodule, a large wall of built-in storage cupboards.

The present Move Home dwelling system is also advantageous in that itprovides for a flexible living space. Indeed, the possibility to movethe dividing module allows for greater flexibility. For instance, it ispossible to reclaim the bedroom space, which is not used during the day,in order to add it to the kitchen and living area, as needed, to welcomeguests, install a large table, work out, dance, etc. The opposite isalso true: a user can reclaim the living area space to enlarge thebedroom area.

One can, therefore, get a 15′ (4.6 m) bedroom or a 16′ long (4.9 m)kitchen and living area by moving the module. Advantageously also, thespace between the module and the ceiling allows natural light to passthrough and gives depth to the area, which wouldn't be the case withtraditional floor to ceiling partition walls.

The present Move Home dwelling system is also advantageous in that theintegrity of the building is preserved. The module and/or otheraspects/components of the dwelling can come with electronic valvesactivated by presence sensors at each point of water consumption. Thesesensors can provide access to domestic water as needed and can blockwater passage after use to prevent accidental water damage, for example.This innovative feature alone provides substantial savings in homeinsurance, and is also greatly beneficial from an environmentalpoint-of-view.

The present Move Home dwelling system is also advantageous in that itprovides infrastructure benefits. Indeed, the above-described units canbe factory built, then delivered and installed onsite in only a few daysby a team of certified experts. A contractor will therefore only need todeal with one supplier, namely that of the present Move Home dwellingsystem. Indeed, the present system offers simplified construction, inthat the builder only needs to provide a base building.

For example, the mechanical infrastructure can consist of a mechanicalwell comprising a waste stack pipe and water service pipe on which theequipment of the module is directly connected. Using a dwelling systemsuch as Move Home also means obtaining shorter timelines on themechanics of the building and the interior finishing.

The present Move Home dwelling system is also advantageous in that itprovides reduced implementation costs. Since there is less traffic onthe site, this results in reduced noise and downtime for the surroundingareas.

The present Move Home dwelling system is also advantageous in that it ismeant to provide a sturdy movement mechanism. A multitude of cycling andresistance tests have been carried out to ensure the long-termdurability of the product. All the devices and parts used in thecomposition of our movement mechanisms are meant to be selected fromhighly reliable mechanical engineering components. The same process isapplied for selecting the pumps and other mechanisms. The present MoveHome dwelling system may also come with a corresponding warranty (ex.5-year warranty, etc.) against manufacturing defects on the module aswell as for all storage units.

Of course, and as can be easily understood by a person skilled in theart, the scope of the above-mentioned numbered paragraphs should not belimited by the possible embodiments set forth in the examples, butshould be given the broadest interpretation consistent with thedescription as a whole.

Furthermore, although preferred embodiments of the present inventionhave been briefly described herein and illustrated in the accompanyingdrawings, it is to be understood that the invention is not limited tothese embodiments and that various changes and modifications could bemade without departing form the scope and spirit of the presentinvention, as defined in the appended claims and as also apparent to aperson skilled in the art.

The invention claimed is:
 1. A dwelling for accommodating users, thedwelling comprising: a floor surface; at least one side wall providedwith respect to the floor surface; at least one dividing module providedwith respect to the floor surface for separating the floor surface intoat least two separate living spaces, the at least one dividing modulebeing selectively adjustable in position with respect to the floorsurface for providing the dwelling with selectively adjustable livingspaces; a displacement assembly operatively connectable to the at leastone dividing module for displacing said at least one dividing moduleabout the floor surface of the dwelling; and a controlling assemblyoperatively disposed between the at least one dividing module and thedisplacement assembly for allowing a user of the dwelling to selectivelyand adjustably position the at least one dividing module with respect tothe floor surface of the dwelling, and in turn to selectively andadjustably vary a corresponding layout of the two separate living spacesdelimited by the at least one dividing module, in response to a giveninput of the user and depending on a desired configuration by said userof the dwelling; wherein the at least one dividing module is configuredfor displacement along at least one degree-of-freedom, said at least onedegree-of-freedom being configured for enabling the at least onedividing module to carry out at least one corresponding movementselected from the group consisting of a translational movement, a radialmovement, a pivotal movement, a rotational movement, a tilting movement,and an arching movement; wherein the at least one dividing modulecomprises a mobile base being displaceable with respect to the floorsurface; wherein the at least one dividing module comprises a wheeledbase; wherein the at least one dividing module is configured to movehorizontally about the floor surface of the dwelling along at least onesubstantially rectilinear direction; wherein the at least one dividingmodule is configured to move front and back, and vice-versa; wherein thedwelling comprises at least one unit selected from the group consistingof a kitchen unit, a bathroom unit, a shower unit, a closet unit, and astorage unit, said at least one unit being contained about the at leastone dividing module, and thus, said at least one unit being selectivelydisplaceable with respect to the floor surface of the dwelling via acorresponding displacement of said at least one dividing module; whereinthe at least one dividing module comprises a plurality of the at leastone unit, including both the kitchen and bathroom units, and thus, saidplurality of the at least one unit being all selectively displaceabletogether at once with respect to the floor surface of the dwelling via asingle corresponding displacement of the at least one dividing module;wherein the kitchen unit is provided on one side of the at least onedividing module facing a first living space of the dwelling, and whereinthe bathroom unit is provided on an opposite side of the at least onedividing module facing a second living space of the dwelling; whereinthe kitchen unit includes at least one appliance selected from the groupconsisting of an oven, a stovetop, an air extractor, a microwave, afaucet-and-sink assembly, a dishwasher, a refrigerator, and a freezer;wherein the bathroom unit includes at least one utility service selectedfrom the group consisting of a toilet, a faucet-and-sink assembly, abathtub, a shower, and a dehumidifier; wherein the at least one dividingmodule comprises a submersible pump; wherein each of the plurality ofthe at least one unit of the at least one dividing module isprefabricated; wherein unassembled components of each of at least oneunit are shaped and sized to fit through a corresponding standard-sizeddoor of the dwelling; wherein the dwelling includes at least one innerplumbing connection being operatively connectable to at least one outerplumbing connection provided outside of the dwelling; wherein thedwelling includes at least one inner electrical connection beingoperatively connectable to at least one outer electrical connectionprovided outside of the dwelling; wherein the dwelling includes at leastone inner venting connection being operatively connectable to at leastone outer venting connection provided outside of the dwelling; whereinat least one corresponding inner connection of the dwelling is providedabout the at least one dividing module; wherein said at least onecorresponding inner connection of the dwelling is operatively connectedto at least one corresponding unit of the kitchen and bathroom unitscontained within the at least one dividing module; wherein the dwellingcomprises a connection carrier for carrying at least one inner utilityconnection of the dwelling to at least one corresponding outer utilityconnection of the dwelling; wherein the connection carrier is a flexibleconnection carrier having a moveable first end operatively connectableto at least one inner utility connection of the at least one dividingmodule, and a second end being substantially fixed and operativelyconnectable to at least one corresponding outer utility connection ofthe dwelling; wherein the connection carrier is configured forpreventing a bending of the at least one inner utility connection beyonda minimal radius of curvature; wherein the connection carrier is anarticulated connection carrier including a plurality of links; whereinthe connection carrier includes a pair of elongated chains defining aspace thereinbetween through which the at least one inner utilityconnection is allowed to pass and bend; wherein the connection carrierincludes bridging links interconnecting the pair of elongated chains forcontaining the at least one inner utility connection within theconnection carrier; wherein the connection carrier includes a chainflex; wherein a first portion of the connection carrier is extendablealong a corresponding supporting component of the dwelling, and whereina second portion of the connection carrier is bendable and moveable oversaid first portion of the connection carrier; wherein the floor surfaceof the dwelling is a substantially rectangular floor surface about whichthe at least one dividing module is selectively displaceable; whereinthe substantially rectangular floor surface of the dwelling is definedby a pair of longitudinal side walls, and a pair of end walls; whereinthe at least one dividing module is configured to be selectivelydisplaceable about at least one pre-determined operative area of thefloor surface; wherein the at least one pre-determined operative area ofthe floor surface is adjustable, and programmable via a correspondingcontrol panel of the dwelling; wherein the dwelling comprisespositioning sensors for delimiting movement of the at least one dividingmodule within the at least one pre-determined operative area of thefloor surface; wherein the positioning sensors of the dwelling arefurther configured for sensing a positioning of a user or an objectwithin the at least one pre-determined operative area of the floorsurface, and for stopping movement of the at least one dividing moduleaccordingly, upon detection of a given condition; and wherein thepositioning sensors of the dwelling are further configured for sensingpositioning of a user in proximity of a given unit of the dwelling, andfor allowing operation of said given unit only upon detecting proximityof the user with respect to said given unit.
 2. A dwelling according toclaim 1, wherein the at least one dividing module is further configuredto prevent operating capability of the given unit when presence of auser is not detected in proximity of said given unit.
 3. A dwellingaccording to claim 2, wherein plumbing operation of a given unit iscontrolled via at least one corresponding electrical valve being incommunication with a corresponding positioning sensor of the dwelling.4. A dwelling according to claim 3, wherein electrical operation of agiven unit is controlled via at least one corresponding electricalswitch being in communication with a corresponding positioning sensor ofthe dwelling.
 5. A dwelling according to claim 4, wherein ventingoperation of a given unit is controlled via at least one correspondingelectrical valve being in communication with a corresponding positioningsensor of the dwelling.
 6. A dwelling according to claim 5, wherein acorresponding operation of a given unit is controlled via at least onecorresponding switch upon detection of an undesirable condition withinthe dwelling.
 7. A dwelling according to claim 6, wherein the dwellingcomprises different environment sensors for detecting differentparameters within the dwelling, these environment sensors beingconnected to corresponding controls within the dwelling for modifyingthe parameters accordingly based on pre-established conditions beingselectively set by a user via a corresponding control panel of thedwelling; wherein the displacement assembly comprises at least onewheel; wherein the at least one dividing module and corresponding atleast one wheel are configured for manual operation by a correspondinguser of the dwelling; and wherein the at least one wheel is driven by atleast one corresponding motor.
 8. A dwelling according to claim 1,wherein the displacement assembly includes a hanging assembly forhanging the at least one dividing module from a ceiling of the dwelling.9. A dwelling according to claim 8, wherein the at least one dividingmodule and corresponding hanging assembly thereof are configured formanual operation by a corresponding user of the dwelling; wherein the atleast one dividing module and corresponding hanging assembly thereof areelectrically operated by at least one corresponding motor andcorresponding circuit; wherein the displacement assembly and associatedcomponents thereof are selectively controlled via a control panel of thedwelling; and wherein the at least one dividing module is configured forbeing selectively adjustable with respect to the floor surface of thedwelling via a corresponding path.
 10. A dwelling according to claim 9,wherein the corresponding path is provided along a corresponding sidewall of the dwelling.
 11. A dwelling according to claim 9, wherein thecorresponding path is provided along a corresponding floor surface ofthe dwelling; and wherein the corresponding path is provided along acorresponding ceiling surface of the dwelling.
 12. A dwelling accordingto claim 9, wherein the corresponding path is further configured forpreventing the at least one dividing module from tipping over duringseismic activity; and wherein the dwelling comprises at least one firstliving area provided on one side of the at least one dividing module,and at one second living area provided on the other side of the at leastone dividing module.
 13. A dwelling according to claim 1, wherein aplurality of components of the at least one dividing module are madefrom injection molding.
 14. A dwelling for accommodating users, thedwelling comprising: a floor surface; at least one side wall providedwith respect to the floor surface; at least one dividing module providedwith respect to the floor surface for separating the floor surface intoat least two separate living spaces, the at least one dividing modulebeing selectively adjustable in position with respect to the floorsurface for providing the dwelling with selectively adjustable livingspaces; a displacement assembly operatively connectable to the at leastone dividing module for displacing said at least one dividing moduleabout the floor surface of the dwelling; and a controlling assemblyoperatively disposed between the at least one dividing module and thedisplacement assembly for allowing a user of the dwelling to selectivelyand adjustably position the at least one dividing module with respect tothe floor surface of the dwelling, and in turn to selectively andadjustably vary a corresponding layout of the two separate living spacesdelimited by the at least one dividing module, in response to a giveninput of the user and depending on a desired configuration by said userof the dwelling; wherein the at least one dividing module is configuredfor displacement along at least one degree-of-freedom, said at least onedegree-of-freedom being configured for enabling the at least onedividing module to carry out at least one corresponding movementselected from the group consisting of a translational movement, a radialmovement, a pivotal movement, a rotational movement, a tilting movement,and an arching movement; wherein the at least one dividing modulecomprises a mobile base being displaceable with respect to the floorsurface; wherein the at least one dividing module comprises a wheeledbase; wherein the at least one dividing module is configured to movehorizontally about the floor surface of the dwelling along at least onesubstantially rectilinear direction; wherein the at least one dividingmodule is configured to move front and back, and vice-versa; wherein thedwelling comprises at least one unit selected from the group consistingof a kitchen unit, a bathroom unit, a shower unit, a closet unit, and astorage unit, said at least one unit being contained about the at leastone dividing module, and thus, said at least one unit being selectivelydisplaceable with respect to the floor surface of the dwelling via acorresponding displacement of said at least one dividing module; whereinthe at least one dividing module comprises a plurality of the at leastone unit, including both the kitchen and bathroom units, and thus, saidplurality of the at least one unit being all selectively displaceabletogether at once with respect to the floor surface of the dwelling via asingle corresponding displacement of the at least one dividing module;wherein the kitchen unit is provided on one side of the at least onedividing module facing a first living space of the dwelling, and whereinthe bathroom unit is provided on an opposite side of the at least onedividing module facing a second living space of the dwelling; whereinthe kitchen unit includes at least one appliance selected from the groupconsisting of an oven, a stovetop, an air extractor, a microwave, afaucet-and-sink assembly, a dishwasher, a refrigerator, and a freezer;wherein the bathroom unit includes at least one utility service selectedfrom the group consisting of a toilet, a faucet-and-sink assembly, abathtub, a shower, and a dehumidifier; wherein the at least one dividingmodule comprises a submersible pump; wherein each of the plurality ofthe at least one unit of the at least one dividing module isprefabricated; wherein unassembled components of each of at least oneunit are shaped and sized to fit through a corresponding standard-sizeddoor of the dwelling; wherein the dwelling includes at least one innerplumbing connection being operatively connectable to at least one outerplumbing connection provided outside of the dwelling; wherein thedwelling includes at least one inner electrical connection beingoperatively connectable to at least one outer electrical connectionprovided outside of the dwelling; wherein the dwelling includes at leastone inner venting connection being operatively connectable to at leastone outer venting connection provided outside of the dwelling; whereinat least one corresponding inner connection of the dwelling is providedabout the at least one dividing module; wherein said at least onecorresponding inner connection of the dwelling is operatively connectedto at least one corresponding unit of the kitchen and bathroom unitscontained within the at least one dividing module; wherein the dwellingcomprises a connection carrier for carrying at least one inner utilityconnection of the dwelling to at least one corresponding outer utilityconnection of the dwelling; wherein the connection carrier is a flexibleconnection carrier having a moveable first end operatively connectableto at least one inner utility connection of the at least one dividingmodule, and a second end being substantially fixed and operativelyconnectable to at least one corresponding outer utility connection ofthe dwelling; wherein the connection carrier is configured forpreventing a bending of the at least one inner utility connection beyonda minimal radius of curvature; wherein the connection carrier is anarticulated connection carrier including a plurality of links; whereinthe connection carrier includes a pair of elongated chains defining aspace thereinbetween through which the at least one inner utilityconnection is allowed to pass and bend; wherein the connection carrierincludes bridging links interconnecting the pair of elongated chains forcontaining the at least one inner utility connection within theconnection carrier; wherein the connection carrier includes a chainflex; wherein a first portion of the connection carrier is extendablealong a corresponding supporting component of the dwelling, and whereina second portion of the connection carrier is bendable and moveable oversaid first portion of the connection carrier; wherein the floor surfaceof the dwelling is a substantially rectangular floor surface about whichthe at least one dividing module is selectively displaceable; whereinthe substantially rectangular floor surface of the dwelling is definedby a pair of longitudinal side walls, and a pair of end walls; whereinthe at least one dividing module is configured to be selectivelydisplaceable about at least one pre-determined operative area of thefloor surface; wherein the at least one pre-determined operative area ofthe floor surface is adjustable, and programmable via a correspondingcontrol panel of the dwelling; wherein the dwelling comprisespositioning sensors for delimiting movement of the at least one dividingmodule within the at least one pre-determined operative area of thefloor surface; wherein the positioning sensors of the dwelling arefurther configured for sensing a positioning of a user or an objectwithin the at least one pre-determined operative area of the floorsurface, and for stopping movement of the at least one dividing moduleaccordingly, upon detection of a given condition; and wherein thepositioning sensors of the dwelling are further configured for sensingpositioning of a user in proximity of a given unit of the dwelling, andfor allowing operation of said given unit only upon detecting proximityof the user with respect to said given unit; wherein the at least onedividing module is further configured to prevent operating capability ofthe given unit when presence of a user is not detected in proximity ofsaid given unit; wherein plumbing operation of a given unit iscontrolled via at least one corresponding electrical valve being incommunication with a corresponding positioning sensor of the dwelling;wherein electrical operation of a given unit is controlled via at leastone corresponding electrical switch being in communication with acorresponding positioning sensor of the dwelling; wherein ventingoperation of a given unit is controlled via at least one correspondingelectrical valve being in communication with a corresponding positioningsensor of the dwelling; wherein a corresponding operation of a givenunit is controlled via at least one corresponding switch upon detectionof an undesirable condition within the dwelling; wherein the dwellingcomprises different environment sensors for detecting differentparameters within the dwelling, these environment sensors beingconnected to corresponding controls within the dwelling for modifyingthe parameters accordingly based on pre-established conditions beingselectively set by a user via a corresponding control panel of thedwelling; wherein the displacement assembly comprises at least onewheel; wherein the at least one dividing module and corresponding atleast one wheel are configured for manual operation by a correspondinguser of the dwelling; and wherein the at least one wheel is driven by atleast one corresponding motor, wherein the displacement assemblyincludes a hanging assembly for hanging the at least one dividing modulefrom a ceiling of the dwelling; wherein the at least one dividing moduleand corresponding hanging assembly thereof are configured for manualoperation by a corresponding user of the dwelling; wherein the at leastone dividing module and corresponding hanging assembly thereof areelectrically operated by at least one corresponding motor andcorresponding circuit; wherein the displacement assembly and associatedcomponents thereof are selectively controlled via a control panel of thedwelling; wherein the at least one dividing module is configured forbeing selectively adjustable with respect to the floor surface of thedwelling via a corresponding path, wherein the corresponding path isprovided along a corresponding side wall of the dwelling; wherein thecorresponding path is provided along a corresponding floor surface ofthe dwelling; wherein the corresponding path is provided along acorresponding ceiling surface of the dwelling; wherein the correspondingpath is further configured for preventing the at least one dividingmodule from tipping over during seismic activity; and wherein thedwelling comprises at least one first living area provided on one sideof the at least one dividing module, and at one second living areaprovided on the other side of the at least one dividing module.